JP2006519702A - Roll stand and roll stand adjustment method - Google Patents

Abstract

The present invention is a roll stand comprising four housing columns (1), the housing column being fixed to the sole plate (6), in which the sliding in the axial direction is regulated in the housing column. A tension spindle (3) rotatably supported is disposed, and screw parts in opposite directions are provided at the upper end and the lower end of the tension spindle, and the upper cross beam (4) and the lower cross beam are provided on the thread part. (5) is screwed together so that the roll sets can be displaced in opposite directions via the threaded portion, and the housing column (1) guides the roll chock (2) and the bending block. Is retained,
Between the lower cross beam (5) and the lower backup roll chock (8), a short stroke reduction cylinder (7) for applying a rolling force is disposed.

Description

  The present invention relates to a roll stand and a method for adjusting the roll stand during rolling.

  A roll stand generally consists of two roll housings with a controllable roll reduction device and an auxiliary reduction device to achieve a constant pass line. Due to this structure, the housing window is narrowed when a rolling force is applied. When the rolling force is different, there are different gaps between the roll housing and the roll chock in the housing window.

  The universal roll stand known from Patent Document 1 includes a vertical roll sealing frame and a horizontal roll chock, and the roll is supported by upper and lower cross beams. The cross beam is inserted into the frame of the cross beam, and the cross beam (and thus the horizontal roll) is rolled by means of a tension spindle that is axially restricted and rotatably supported in the frame. They are connected to each other so that they can be reduced in the center with respect to the pass line. The frame is placed directly on the base sole plate.

  The roll stand known from Patent Document 2 is composed of four housing columns, which are firmly fixed by a sole plate, and are supported in the housing column so that sliding in the axial direction is restricted and rotatable. The tensioning spindle is arranged, and the upper and lower ends of the tensioning spindle are provided with screw parts in opposite directions, and the threaded parts are screwed into the upper and lower cross beams, so that the cross beams are reversed from each other via the roll set. It can be displaced in the direction. The housing column serves as a guide for the roll chock. A short stroke reduction cylinder for applying a rolling force is disposed between the lower backup roll chock and the lower cross beam.

Patent Document 3 discloses a six-fold roll stand having a horizontal offset of a work roll.
German Patent Application Publication No. 2144511 German Patent Invention No. 69712772 U.S. Pat. No. 4,712,416

  The object of the present invention is to provide a novel roll stand construction principle that is always adjusted to a constant pass line without further auxiliary means.

This problem is solved according to the present invention by a combination of the following features. That is, the roll stand of the present invention includes four housing columns, each of which is fixed to a sole plate, and is supported in the housing column so as to be rotatable in a state in which sliding in the axial direction is restricted. The tension spindle is arranged, and the upper end and the lower end of the tension spindle are provided with screw parts in opposite directions, and the upper cross beam and the lower cross beam are screwed into the screw part. The roll sets are displaceable in opposite directions via each other, and the housing column guides the roll chock and holds the bending block,
A short stroke reduction cylinder (7) for applying a rolling force is arranged between the lower cross beam and the lower backup roll chock, and the tension spindle and the roll chock are separately arranged in the housing column. Thus, the transmission of force to the roll and the guidance of the roll chock can be performed independently.

  This problem is further solved by a method for adjusting a roll stand having the features of claim 5.

  Various configurations of the invention will become apparent from the dependent claims.

  The present invention is based on a mechanism in which opposing members approach or separate from each other uniformly (or non-uniformly) via a right-hand thread portion and a left-hand thread portion. At the same time, the mechanism for transmitting the rolling force is separated from the mechanism for guiding the roll chock, so that various disadvantages such as narrowing of the roll housing window no longer appear. In addition, the tendency of “growing” is essentially improved.

  Details of the present invention will be described below with reference to the drawings.

  This structure consists essentially of four welded housing columns 1, which double as guide members for the roll chock 2 and bearings for the tension spindle 3. The tension spindle 3 that transmits the rolling force via the upper and lower cross beams 4 and 5 brings the cross beams closer to or away from each other. The housing column 1 is solidified with a foundation, that is, a sole plate 6, and the sole plate 6 is fixed with anchor bolts. The strength design is performed according to the load expected by the roll chock 2. The tension spindle 3 having the right thread portion and the left thread portion moves to a predetermined position of the roll stand in an unloaded state. Next, the rolling force is adjusted via the short stroke reduction cylinder 7, and in the rolling state, the rolling force is introduced to the tension rod via the cross beam. This strength design is performed according to the maximum rolling force expected. Self-locking at the time of rolling is ensured by a small pitch of the threaded portion, and in addition, a predetermined position can be secured via a brake in the displacement drive device. Furthermore, a small auxiliary reduction cylinder (not shown) can be assembled in the upper cross beam 4 on the side opposite to the short stroke reduction cylinder 7 for a small reduction force.

  The tensioning spindle 3 is driven via four synchronized individual drives or via a single drive with a drive transmission mechanism. The upper and lower cross beams 4, 5 approach or separate from each other depending on the rotation direction of the tension spindle. At that time, if the roll diameters (backup roll, intermediate roll, work roll) are the same, the work roll is always adjusted to the pass line.

  All components are finished products that can be easily processed. Another advantage is the low weight of the individual components for assembly.

It is a schematic side view including the partial cross section which shows the roll stand of this invention embodiment.

Claims (5)

With four housing columns (1)
The housing columns are each fixed to a sole plate (6),
In the housing column, there is disposed a tension spindle (3) rotatably supported in a state in which sliding in the axial direction is restricted,
The upper and lower ends of the tension spindle are provided with threaded portions in opposite directions,
When the upper cross beam (4) and the lower cross beam (5) are screwed into the threaded portion, the roll sets can be displaced in opposite directions via the threaded portion,
Further, the housing column (1) guides the roll chock (2) and holds the bending block,
Between the lower cross beam (5) and the lower backup roll chock (8), a short stroke reduction cylinder (7) for adding a rolling force is disposed,
The tension spindle (3) and the roll chock (2) are separately arranged in the housing column (1), so that transmission of force to the roll and guidance of the roll chock (2) can be performed independently. It is configured as a roll stand.   The roll stand according to claim 1, wherein the roll stand is a double type, quadruple type, or six type roll stand.   The roll stand according to claim 1, characterized in that an auxiliary reduction cylinder is arranged between the upper cross beam (4) and an upper backup roll chock attached thereto.   The roll stand according to any one of claims 1 to 3, characterized in that the threaded portion of the tension spindle (3) is designed in a self-locking manner. In the roll stand according to claim 1, first, the pulling spindle (3) is operated in an unloaded roll stand, the backup roll and the work roll are moved closer to each other and moved to a predetermined position with respect to a pass line, and then A roll stand adjustment method comprising adjusting a roll reduction force via the short stroke reduction cylinder (7).

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